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A standing Leidenfrost drop with Sufi whirling

Jinlong Yang, Yong Li, Dehui Wang, Yue Fan, Yuanyuan Ma, Fanfei Yu, Junchang Guo, Longquan Chen, Zuankai Wang, Xu Deng

2023Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

When a water drop is placed on a hot solid surface, it either undergoes explosive contact boiling or exhibits a stable state. In the latter case, the drop floats over an insulating layer of vapor generated by rapid vaporization of water at the surface/drop interface; this is known as the Leidenfrost state. Here, we discuss a previously unrecognized steady state in which a water drop "stands" on a hot smooth surface. In this state, the drop stabilizes itself with partial adhesion on the hot surface, leading to unique deformation and rotation behavior reminiscent of Sufi whirling-a form of spinning dance. Our analysis of this standing Leidenfrost state reveals the underlying mechanisms that drive the drop's stable partial adhesion and subsequent deformation with rotation. The heat-transfer efficiency of this standing state is up to 390% greater than that of the traditional floating Leidenfrost state.

Topics & Concepts

Leidenfrost effectDrop (telecommunication)BoilingSpinning drop methodVaporizationChemistryMechanicsHeat transferComposite materialMaterials scienceSurface tensionThermodynamicsNucleate boilingPhysicsHeat transfer coefficientMechanical engineeringOrganic chemistryEngineeringSurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferAdvanced Materials and Mechanics
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